Fryer filtration arrangement

ABSTRACT

A fryer filtration arrangement utilizes certain automated components.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of application Ser. No. 10/991,629,filed Nov. 18, 2004, which issued as U.S. Pat. No. ______, which is acontinuation-in-part of application Ser. No. 10/421,098, filed Apr. 23,2003, which issued as U.S. Pat. No. 6,890,428, which in turn is acontinuation of application Ser. No. 09/760,356, filed Jan. 12, 2001,which issued as U.S. Pat. No. 6,572,764 each of which is expresslyincorporated by reference in their entirety.

TECHNICAL FIELD

The present invention relates generally to deep-fat fryers and, moreparticularly, to a deep-fat fryer cooking oil filtration arrangement.

BACKGROUND

A typical deep-fat fryer will include a fryer vat containing a heatingbath of cooking oil. The cooking oil is adapted to receive baskets offood products such that the food products will be immersed within andcooked by the heated cooking oil. Such fryers may also include a heatexchanger and a pump. The pump is responsible for continuously pumpingthe cooking oil from the fryer vat, through the heat exchanger and backinto the fryer vat such that the cooking oil remains at a substantiallyconstant temperature, thereby allowing the food products to be evenlyand consistently cooked within the fryer vat. Fryers have also beenmanufactured with in vat fire tubes and associated burners, withcombusted gases being passed therethrough to heat the oil, eliminatingthe need to constantly pump the oil from the vat through a heatexchanger.

To extend the useful life of the cooking oil, it is a common practice tofilter the particulate food matter from the cooking oil to minimize thecarbonization of such food matter within the cooking oil. Improvementsin effectiveness and convenience of filtration systems are regularlysought.

SUMMARY

In one aspect, a fryer includes a flyer vat, a pan for receiving oildrained from the fryer vat, a filter assembly within the pan forfiltering oil. An oil drain path leads from an outlet opening of thefryer vat to the pan, an automated drain valve is located along the oildrain path. An oil return path leads from the pan back to the fryer vat.A pump is located for delivering oil from the pan back along the oilreturn path to the fryer vat. A control unit is connected forcontrolling the automated valve and the pump. A user input device isassociated with the control unit. Activation of the input device resultsin the control unit opening the automated valve and turning on the pump.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front perspective of one embodiment of a fryer including afiltration arrangement;

FIG. 2 is a side elevation of the oil pan and associated filter assemblyof the fryer of FIG. 1;

FIG. 3 is a cross-section of one embodiment of a return coupler whichextends from the pan of FIG. 2;

FIG. 4 is a cross-section of one embodiment of a corresponding couplerwhich receives the coupler of FIG. 3;

FIG. 5 is a top view of one embodiment of a filter assembly;

FIG. 6 is a side elevation of the filter assembly of FIG. 5;

FIG. 7 illustrates one embodiment of a filter assembly and pan couplingarrangement;

FIG. 8 is a schematic side elevation of the fryer of FIG. 1;

FIG. 9 is a schematic front elevation of the fryer of FIG. 1;

FIG. 10 is a schematic depiction of an alternative fryer oil filteringarrangement; and

FIG. 11 is another embodiment of a fryer with multiple fryer housings.

DETAILED DESCRIPTION

Referring to drawing FIG. 1, a perspective view of a typical fryer 10including two fryer vats 12A and 12B is shown. Each fryer vat includesat least one respective basket 16A and 16B which is automaticallymovable upward and downward via respective positioning guides 18A and18B in a manner well known in the art. The fryer 10 includes a frame 20which preferably includes associated housing 22 such as stainless steel.A front panel 24 of the fryer 10•includes a control and display panel26A and 26B for each fryer vat. The lower portion of the housing frameincludes a set of doors 30A, 30B which are movable between open andclosed positions, and which are illustrated in the open position. Belowthe doors 30A, 30B a drawer 32 which is movable between open and closedpositions relative to the frame 20 is provided, the drawer beingillustrated in the open position. Positioned within the drawer 32 is anoil receiving pan 34 having a rim 36 which sits on rails 38 of thedrawer 32. Handles 40 extend from the interior sidewalls of the pan 34to allow the pan to be easily picked up and removed from the drawer tofacilitate cleaning at a location away from the fryer 10. Positioning ofthe handles 40 on the inner portion of the pan helps facilitate simplepositioning of the pan in the drawer 32. As used herein, the term “pan”is intended to broadly encompass any oil receiving container, unlessotherwise specifically indicated.

A basket type screen 42 is removably positioned within the pan 34 forfiltering out debris entering the pan 34 within oil which is drainedfrom one of the fryer vats 12A and 12B. At the bottom of the pan 34 afilter assembly 45 is provided for filtering the oil. An oil return pathfrom the pan 34 back to the fryer vat 12A, 12B is formed in part by acoupler 44 which is connected to and extends from a front sidewall ofthe pan 34. The illustrated coupler 44 extends rearwardly back towardthe fryer frame 20. A corresponding coupler 46 (FIG. 2) is positioned onthe fryer frame 20, with the two couplers aligned for slidingly matingwith each other in a friction fit arrangement when the drawer 32 ismoved to a closed position.

In the illustrated fryer 10, each vat 16A, 16B includes an associatedexhaust stack 200A, 200B formed at the back of the fryer for ventingcombustion gases produced by the oil heating system which includes invat fire tubes as will be described in more detail below with referenceto FIGS. 8 and 9.

Referring now to FIG. 2, the pan 34 includes an outlet opening 48through its bottom wall 50. The oil return path is formed in part by aflow passage through member 52 and piping 54 which runs along theexternal surface of bottom wall 50 and front wall 56 of the pan 34. Thepiping 54 may be placed against the surface of walls 50 and 56 as shownin order to provide good heat conduction between the pan 34 and thepiping 54. In this manner, when the pan 34 is filled with hot oil as atank 12A, 12B is drained, the hot oil imparts heat to the piping 54,through the pan 34, before flow through the piping 54 begins. Such heatdelivery to the piping 54 aids in prevention of solidification of theoil as it travels through the piping 54, eliminating the need to useseparate piping heating means such as thermal tape.

Near the top of front wall 56 a wall penetrating coupling assembly 58passes through the wall 56, with piping 60 extending upward from the pan34 and rearwardly as shown.

The end of piping 60 acts as the return coupler 44 and is shown incross-section in FIG. 3. The return coupler 44 mates with correspondingcoupler 46 which is shown in cross-section in FIG. 4. In the illustratedembodiment the return coupler 44 comprises a male coupler with a chamfer62 at its end, and the corresponding coupler 46 comprises a femalecoupler which includes a chamfered opening 64 to facilitate slidingengagement with return coupler 44. The internal surface of coupler 46includes two annular recesses 66 for receiving sealing members such aso-rings 67 which engage the outer surface of the return coupler 44 in afriction fit manner when the coupler 44 is inserted therewithin. Theinternal o-rings 67 thus remain unexposed and protected from damage whenthe drawer 32 is opened and the return coupler 44 is removed fromcoupler 46.

One embodiment of a filter assembly 45 is shown in FIGS. 5 and 6. Arectangular metal frame 70 surrounds a stainless steel wire mesh orother filter screen material 72. The filter assembly is envelope-shapedand includes an upperside 74 and underside 76. While substantially theentire surface area formed by both the upperside 74 and underside 76 maybe formed by the filter screen material, it is recognized that a lesserportion could be formed by the filter screen material. One side 78 offrame 70 is pivoted at corner 80 to permit movement between an openposition (shown in shadow) and a closed position, with the open positionproviding access to an interior 82 of the assembly. Latch 84 holds frameportion 80 in the closed position when desired. Positioned within theinterior 82 of the filter assembly is a removable spacer member 86 whichmay be in the form of a stainless steel wire-basket weave which allowsoil to flow therethrough. The spacer member aids in holding theupperside 74 away from the underside 76 during operation. The underside76 of the filter assembly includes an opening 88 therethrough which issurrounded by an annular flange 90, best seen in the partial explodedelevation/cross-section of FIG. 7. The upperside 74 of the filterassembly includes a similar opening and annular flange, not shown. Thesubject filter assembly in the above form, with an opening on itsupperside and underside, is commercially available from Filter-All Inc.of Magnolia, Tex.

The subject commercially available filter is modified by connecting acoupler 92 having a flow passage 94 therethrough to the opening 88 onthe underside 76, such as by welding to the flange 90. The passage 94leads from the exterior of the filter assembly 45 to its interior 82. AnL-shaped handle member 112 is connected to the opening and flange at theupperside 74 of the filter assembly 45 to seal off the uppersideopening. The handle facilitates manual installation and removal of thefilter assembly. The handle member 112 may be welded or otherwiseconnected to the upperside 74 of the filter assembly 45.

The coupler 92 is sized and shaped for mating with a coupler 96 which isdefined by opening 48 in the bottom wall 50 of the pan 34. In theillustrated embodiment, the coupler 96 is formed in member 52 which maybe welded or otherwise connected to the exterior surface of the bottomwall 50. The entry to coupler 96 may be chamfered at 102 to facilitatecoupler 92 being slidingly inserted therein. Coupler 92 may include anannular recess 104 which receives a sealing member such as an o-ring 105for engaging an inner surface of coupler 96. A friction fit, quickconnect/disconnect arrangement is thereby provided. It is recognizedthat the o-ring could be located internally along the wall of coupler96. In one embodiment the coupler 92 has a cylindrical outer shape andhas an outer diameter D between about 0.720″ and about 0.750″, a lengthL between about 0.4″ and about 0.6″, and a through diameter d betweenabout 0.350″ and 0.400″, with a preferred outer diameter of about0.735″, a preferred length of about 0.5″, and a preferred throughdiameter of about 0.350″. While the illustrated embodiment shows coupler92 as a male coupler and coupler 96 as a female coupler, it isrecognized that in other embodiments the coupler associated with filterassembly 45 could comprise a female coupler and that a male couplercould extend from the bottom wall 50 of the pan. Passage 106 is providedfor leading to and coupling with piping 54 shown in FIG. 2.

Referring again to FIG. 2, the oil return path includes a pump 110positioned therealong for drawing oil out of the pan 34. Oil travelingout of the pan 34 during a filtration operation travels from the pan 34,through the outer filter screen material 72 of the filter assembly 45,into the interior 82 of the filter assembly 45, and out of the interior82 of the filter assembly 45 through a flow path defined by at least oneof the couplers 92 and 96. Operation of the pump 110, and the associatedflow of oil drawn out of the pan 34, creates a suction force for holdingthe coupler 92 of the filter assembly 45 to the coupler 96 of the pan34, without requiring any latch or hold down member. The friction fitarrangement of o-ring 105 and inner surface of coupler 96 also aids inholding coupler 92 to coupler 96. The suction force created by the pump110, and the associated flow of oil drawn out of the pan 34, also holdsthe return coupler 44 of the pan 34 to the corresponding coupler 46 ofthe fryer frame 20 so as to maintain the drawer 32 in a closed positionduring a filtration operation, without requiring any positive latch. Thefriction fit engagement of o-ring 67 with the outer surface of returncoupler 44 also aids in holding return coupler 44 to correspondingcoupler 46.

In one embodiment, when the couplers 92 and 96 are fully coupled atleast part of the underside 76 of the filter assembly 45 is spaced fromthe bottom wall 50 of the pan 34 to enable oil to flow through both theupperside 74 and underside 76 of the filter assembly 45 as it is drawnout of the pan 34. This arrangement provides a greater oil filteringsurface area as compared to systems in which the filter material, suchas paper media, lies flat against the bottom wall 50 of the pan 34.Positioning pegs or posts may be provided on the bottom wall 50 of thepan 34 for such purpose, or could likewise extend from the underside 76of the filter assembly 45. Channels could also be formed in the bottomwall 50 of the pan 34.

Referring now to drawing FIGS. 8 and 9, the fryer 10 including oneembodiment of the subject fryer filtration arrangement is shownschematically in side and front elevation respectively. The fryer vat12B is shown by two spaced, adjacent dashed lines in FIG. 8 and by twospaced, adjacent solid lines in FIG. 9. An outlet opening 120A, 120B ina wall of each vat 12A, 12B leads to a respective draining pipe 122A,122B. The two draining pipes 122A, 122B lead to a common drain pipe 124which extends laterally across a front portion of the fryer 10. Thecommon drain pipe 124 includes an outlet 126 for delivering oil into thepan 34. Thus, each vat 12A, 12B includes a respective oil drain pathextending from its outlet opening 120A, 120B to the pan 34. Positionedalong each oil drain path is a flow control device 130B (seen only inFIG. 8) for controlling the draining of each vat. In particular, eachflow control device may be a manually operable valve including arespective handle 132B for permitting a user to open and close the drainpath as desired. Of course, other flow control devices may be used,including automatically controlled devices.

The oil return path from the pan 34 is formed in part by piping 54 and60, return coupler 44 and corresponding coupler 46. Piping 134 leadsfrom the coupler 46 to the pump 110. The outlet side of the pump 110connects to piping 136 which extends to common piping 138. Common piping138 includes segment 138A which, relative to the front view FIG. 9, runsto the left, upward, rearward and then to the right, to an inlet opening140A in the vat 12A. Relative to the front view of FIG. 9, segment 138Bruns to the right, upward, rearward and then to the right, to an inletopening 140B in the vat 12B. Each segment 138A, 138B includes arespective flow control device 142A, 142B positioned therealong forcontrolling flow back to its respective vat 12A, 12B. The flow controldevices may, for example, be manually operable valves includingrespective handles 144A, 144B for operation by a user.

By way of example, to filter the oil in vat 12B, the flow control device130B is opened to permit oil to drain into the pan 34. The flow controldevice 142B is also opened to permit oil to be delivered back to the vat12B. The pump 110 is then operated and oil is cycled from the pan 34,through the filter assembly 45, back along the oil return path throughthe pump 110 and to the vat 12B. During such operation the flow controldevices 130A (not shown) and 142A are maintained in closed positions toprevent oil from draining from vat 12A and to prevent oil from beingreturned to vat 12A. When sufficient filtering has been achieved, theflow control device 130B is closed so that the vat 12B fills as oil isreturned thereto by the pump 110. At the conclusion of the filtrationoperation the flow control device 142B is closed and the pump 110 isturned off.

Notably, a lower portion of each fryer vat 12A, 12B is shaped to directparticulate matter which settles in the fryer vat into a substantiallylinear region 150A, 150B along a bottom surface of the vat. In theillustrated embodiment this substantially linear settling is achievedusing inclined bottom walls as best seen in the front view of FIG. 9.Each fryer vat inlet opening 140A, 140B is positioned at one end of thesubstantially linear region and each fryer vat outlet opening 120A, 120Bis positioned at an opposite end of the substantially linear region forcausing oil being circulated during a filtering operation to flow fromthe fryer vat inlet opening 140A, 140B, along the substantially linearregion 150A, 150B, and out the fryer vat outlet opening 120A, 120B topush particulate matter lying in the substantially linear region towardand out of the fryer vat outlet opening 120A, 120B for delivery to thepan 34. In the illustrated embodiment, as best shown in FIG. 8 relativeto vat 12B, each fryer vat 12B includes a front wall 152B and a backwall 154B, with the fryer vat inlet opening 140B formed in the back wall154B, and the fryer vat outlet opening 120B formed in the front wall152B. It is recognized that the relative positioning of the inlet andoutlet openings on the front and back walls could be reversed, or thatthe openings could be formed in the sidewalls or bottom wall of the vat12B. A channel could also be provided in the bottom of each vat tofurther define the substantially linear region of settling.

Also connected to common piping 138 is an oil dump path defined bypiping 160. The piping 160 extends to a forward portion of the fryerframe 20 and includes a quick-disconnect coupling 162 at its end tofacilitate connection of a hose which can be used to empty oil from thepan 34 into a separate container. A flow control device 164 ispositioned along the oil dump path for controlling the flow of oiltherealong. The flow control device 164 may, for example, be a manuallyoperable valve including a handle 166 for operation by a user. In theillustrated embodiment, an oil dump is achieved by opening the flowcontrol device 130A, 130B associated with the drain path of the vat tobe dumped. The oil drains into the pan 34. The flow control device 164is then opened and flow control devices 142A and 142B are maintainedclosed. When the pump 110 is operated, oil will be delivered to thepiping 160 and out of the quick-disconnect coupling 162 when a hose isconnected thereto.

Also shown in FIG. 8 is the fire tube assembly 202A, 202B of each vat.Each fire tube assembly includes at least one associated gas burner (notshown) for generating heat which passes along the fire tube(s) of itsrespective assembly 202A, 202B. The fire tubes are submerged in the oil,below the baskets 16A, 16B, to thereby heat the oil. Exhaust gases arevented via stacks 200A, 200B shown in FIG. 1. The filtering arrangementof the present invention is particularly useful in fryers havingabove-described heating arrangement, because the cooking oil is notcontinuously recirculated.

Referring to FIG. 9, the wheel and rail arrangement 170 of the drawer 32is also shown. Front and back lips or flanges 204 and 206 which extendfrom the top of the pan 34 rest on pan supporting surfaces 208 and 210which may be formed by drawer frame rails or struts. The pan 34 may alsoinclude left and right lips/flanges 212 and 214 best seen in FIG. 8,which rest on pan supporting surfaces 216 and 218 of the drawer 32. Thelip/flange and support arrangement permits the pan 34 to be easilyremoved from drawer 32, using handles 40, without requiring manualdisconnection of any components once the drawer 32 is opened. The pan 34may be of stamped stainless steel construction. The side view of FIG. 8shows aligned magnets 172 positioned at the front, top edge of thedrawer and a front, lower edge of the fryer frame/housing for holdingthe drawer in the closed position during periods of non-filtration. Nopositive latching mechanism is required for the drawer.

Variations on the foregoing are possible. For example, while a fryerincluding two vats has been shown above in the illustrated embodiment,fryers including more or less vats could incorporate the subjectfiltration arrangement. Further, while the illustrated filter assemblyis generally rectangular and envelope shaped, other filter assemblyshapes could be used. While the filter assembly connects to the bottomwall of the pan, the outlet opening of the pan, and thus connection ofthe filter assembly, could also be on one of the front, back or sidewalls. Still further, while the illustrated coupling arrangement betweenthe filter assembly and pan is formed by slidingly cooperating couplers,in some cases threaded couplers might be used, in which case the filterassembly handle could be used to rotate the filter assembly to achievethe desired threaded connection.

In the above-described filtration arrangement the flow control devicesalong the oil drain paths are described, in one embodiment, as beingmanually operable valves including respective handles for permitting auser to open and close the drain paths as desired, with recognition thatautomatically controlled flow control devices could also be used. Theflow control device of the oil return path for each vat is described, inone embodiment, as being a manually operable valve including a handle.Referring now to the schematic depiction in FIG. 10, where similarcomponents are shown with similar reference characters, in analternative embodiment of the fryer the manually operated valves 142A,142B of the return paths are replaced by automatically controlled valves300A and 300B that do not require the use of a handle. Instead, acontrol unit 302 is connected to the automated valves 300A and 300B tocontrol the OPEN/CLOSED state of the valves. In one example, the valves300A and 300B are normally closed solenoid valves, but other types ofautomated valves could be used. The control unit 302 is connected forcontrolling the pumping operations of the pump 110, and also isconnected with the control and display panels 26A and 26B. In oneembodiment, each control and display panel includes a respective filterinput switch 304A and 304B, which in one embodiment may be respectiverocker switches.

For a filtering operation of vat 12A, handle 132A is used to manuallyopen valve 130A to permit oil to drain from vat 12A (along the pathincluding 122A and 124) into the pan 34. The user then depresses orotherwise activates the filter input switch 304A, which triggers thecontrol unit 302 to open the valve 300A and turn on the pump 110 so thatthe oil is filtered (in the same manner described above with respect toFIGS. 1-9). The user manually closes the valve 130A when filtering iscomplete and it is desired to return all oil to the vat 12A. For afiltering operation of vat 12B, handle 132B is used to manually openvalve 130B to permit oil to drain from vat 12B (along the path including122B and 124) into the pan 34. The user then depresses or otherwiseactivates the filter input switch 304B, which triggers the control unit302 to open the valve 300B and turn on the pump 110 so that the oil isfiltered. The user manually closes the valve 130B when filtering iscomplete and it is desired to return all oil to the vat 12B.

In an alternative arrangement, the valves 300A and 300B and pump 110could be replaced by a first pump at the location of valve 300A and asecond pump at the location of valve 300B.

In another arrangement, a single filter input switch could be providedand the control unit 302 could be connected to sense which of valves130A or 130B is open, with such sensing being used to determine which ofvalves 300A or 300B to open in response to triggering of the filterinput switch.

In an alternative embodiment, the valves 130A and 130B could also beprovided as automated valves, with the control unit connected to therespective valves as indicated by dashed lines 306A and 306B. In onesuch embodiment, for a filtering operation of vat 12A, the user simplydepresses or otherwise activates filter input switch 304A and thecontrol unit responsively opens valve 130A, waits a period of time toallow for at least some oil drainage into the pan 34, and then opens thevalve 300A and turns on the pump 110 so that the oil is filtered. Inanother such embodiment, the filter input switch could be eliminated andthe control unit could trigger a filtering operation on a timed basisor, for example, each time the fryer is turned off. In oneimplementation the control unit 302 may automatically run the filteringoperation for a set time period before automatically closing the valve130A in order to refill the vat 12A. In another implementation thecontrol unit 302 may continue the filtering operation until the userdepresses or otherwise activates the filter input switch 304A a secondtime, causing the control unit to responsively close the valve 130A inorder to refill the vat 12A. A filtering operation for vat 12B would besimilar to that described for vat 12A. In the more fully automatedembodiment, an interlock (in the form of a pan closed sensor) could beprovided to prevent the valves 130A or 130B from being opened when thedrawer/pan 34 is not in the closed position. Where the ability to drainthe fryer vats 12A and 12B under no power conditions is consideredimportant, valves 130A and 130B could be combined automated/manualvalves or, secondary manual drainage valves could be provided.

While the filter switch or switches 304A and 304B are shown on thecontrol and display panels 26A and 26B, the switches could be locatedelsewhere on the fryer, including internally of the fryer doors 30A,30B.

Referring to FIG. 11, another embodiment in which multiple fryerhousings 400, 402, 404 are connected together is shown, each housingincluding two fryer vats. Only fryer housing 400 includes a pan 406,associated filter system and pump 408, with drain path piping and returnpath piping as previously described. The vats of fryer housings 402 and404 include drain path piping that connects to the drain path piping offryer housing 400 through couplings 410 and 412. Likewise, the vats offryer housings 402 and 404 include associated return path piping thatconnects to the return path piping of fryer housing 400 via couplings414 and 416. In this arrangement the filter system of fryer housing 400is capable of filtering the oil of all fryer vats, including the vats offryer housings 402 and 404, thus eliminating the need for fryer housings402 and 404 to include the pan and related filter. Appropriateelectrical connections between the respective fryer housings areprovided to enable, for example, a filter switch on the interface ofeither fryer housing 402 or 404 to trigger the operation of pump 408.Such control of the pump 408, coupled with the control of the respectivedrain valves (which may be automated type) and the return path valves(which may be automated type), provides filtering of the oil in any oneof the vats of the multiple housing system.

While the filter assembly for the unit of FIG. 11 is shown in the pan inaccordance with previously described embodiments, it is recognized thatthe filter could be located as a replaceable cartridge type filter alongthe oil return path from the pan (either upstream or downstream from thepump). In such an arrangement the oil return path could include pipingpositioned with an open end at a location spaced above the bottom wallof the pan (e.g., ′A inch to 2 inches) so that larger solid particles inthe oil are collected in and remain in the pan.

Accordingly, the spirit and scope of the invention are to be limitedonly by the terms of the appended claims.

1. A fryer apparatus, comprising: a first fryer vat and a second fryervat; a pan for receiving oil drained from the first fryer vat and/orsecond fryer vat, a filter assembly within the pan for filtering oil; afirst oil drain path leading from an outlet opening of the first fryervat to the pan; a second oil drain path leading from an outlet openingof the second fryer vat to the pan; an oil return path for deliveringoil from the pan back to the first and second fryer vats, the oil returnpath including a common path portion and a first separate portionleading to the first flyer vat and a second separate portion leading tothe second fryer vat; a first automated valve located to control whetherflow can occur along the first separate portion of the oil return pathback to the first fryer vat, a second automated valve located to controlwhether flow can occur along the second separate portion of the oilreturn path back to the second fryer vat; a control unit connected forcontrolling a condition of the first automated valve and for controllinga condition of the second automated valve; and at least one user inputdevice associated with the control unit for triggering the control unitto open either the first automated valve for a filtration operation ofthe first fryer vat or the second automated valve for a filtrationoperation of the second fryer vat.
 2. The fryer of claim 1 wherein afirst user input device is provided for triggering the control unit toopen the first automated valve and second user input device is providedfor triggering the control unit to open the second automated valve. 3.The fryer of claim 1 wherein the first oil drain path includes a firstmanually controlled drain valve and the second oil drain path included asecond manually controlled drain valve.
 4. The fryer of claim 3 whereinthe control unit is connected for detecting the OPEN/CLOSED condition ofeach of the first manually controlled drain valve and the secondmanually controlled drain valve, the at least one user input device is asingle user input device, the control unit responds to the single inputdevice by opening the first automated valve or the second automatedvalve in accordance with which of the first manually controlled drainvalve and the second manually controlled drain valve is open.
 5. Thefryer of claim 1 wherein the first oil drain path includes a firstautomated drain valve and the second oil drain path included a secondautomated drain valve, the control unit connected to each for controlthereof, the at least one user input device includes a first user inputdevice and a second user input device, activation of the first userinput device causes the control unit to open the first automated drainvalve and the first automated valve, activation of the second user inputdevice causes the control unit to open the second automated drain valveand the second automated valve.
 6. The fryer of claim 5, furtherincluding a pump located for delivering oil from the pan back along theoil return path to either the first fryer vat or the second fryer vat,activation of the first user input device also causes the control unitto turn on the pump, activation of the second user input device alsocauses the control unit to turn on the pump.
 7. The fryer of claim 1wherein the at least one user input device is located on an exteriorcontrol panel of the fryer housing.
 8. The fryer of claim 1 wherein thefirst fryer vat is within a first fryer housing and the second fryer vatis within a second fryer housing, the pan and filter assembly arelocated entirely within the first fryer housing.
 9. A fryer, comprising:a fryer vat; a pan for receiving oil drained from the fryer vat, afilter assembly within the pan for filtering oil; an oil drain pathleading from an outlet opening of the fryer vat to the pan, an automateddrain valve located along the oil drain path; an oil return path fromthe pan back to the fryer vat; a pump located for delivering oil fromthe pan back along the oil return path to the fryer vat; a control unitconnected for controlling the automated valve and the pump; a user inputdevice located on an exterior of the fryer and associated with thecontrol unit, activation of the input device results in the control unitopening the automated valve and turning on the pump.
 10. A fryer,comprising: a first fryer vat and a second fryer vat; a pan forreceiving oil drained from the first fryer vat and/or second fryer vat,a filter assembly within the pan for filtering oil; a first oil drainpath leading from an outlet opening of the first fryer vat to the pan; asecond oil drain path leading from an outlet opening of the second flyervat to the pan; an oil return path for delivering oil from the pan backto the first and second fryer vats, the oil return path including acommon path portion and a first separate portion leading to the firstfryer vat and a second separate portion leading to the second fryer vat;a first automated flow control device located to control whether flowcan occur along the first separate portion of the oil return path backto the first fryer vat, a second automated flow control device locatedto control whether flow can occur along the second separate portion ofthe oil return path back to the second fryer vat; a control unitconnected for controlling both the first automated flow control deviceand the second automated flow control device; and at least one userinput device associated with the control unit for triggering the controlunit to operate either the first automated flow control device for afiltration operation of the first fryer vat or the second automated flowcontrol device for a filtration operation of the second fryer vat. 11.The fryer of claim 10 wherein the first automated flow control device isa first pump and the second automated flow control device is a secondpump.
 12. The fryer system of claim 10 wherein the first automated flowcontrol device is a solenoid valve and the second automated flow controldevice is a solenoid valve.
 13. The fryer of claim 10 wherein the atleast one user input device is located on an exterior control panel ofthe fryer.